Process for the rapid conversion of a single-strand slab caster into a multi-strand billet continuou

专利摘要:
The invention relates to a method for converting a single-strand continuous slab caster (1) into a multi-strand billet continuous caster (101) and vice versa. The object of the invention is to reduce the time required for the conversion. This object is achieved by the following steps: i) disconnecting the water supply from the mold (2) and disconnecting the hydraulic supply from the oscillating unit (3) of the continuous casting plant; ii) removal of the mold (2) and the oscillating unit (3) and installation of a common support frame (111) for a plurality of billet strands (K) in the region of the machine head of the continuous casting plant, wherein the common support frame (111) with the mainland (6) of the continuous casting is connected; iii) installation of a respective mold (102) for pouring liquid steel into a billet strand (K) and an oscillating unit (103) for oscillating the mold (102) per billet strand (K), wherein a plurality of oscillating units (103) with the common support frame (111); iv) coupling the water supply to the molds (2) and coupling the hydraulic supply to the oscillating units (3); v) disconnecting the water supply and hydraulic supply from the segments (4a ... 4n); vi) releasing the segments (4a ... 4n) from the rear construction (7) of the continuous casting plant and removing the segments (4a ... 4n) from the continuous casting plant; vii) connecting pairs of rollers (104a ... 104i) for guiding a plurality of billet strands (K) with the rear construction (7), the billet strands (K) being supported on both sides by a pair of rollers (104a ... 104i) and cooled by cooling nozzles; viii) coupling the cooling nozzles of the roller pairs (104a ... 104i) to the water supply; ix) connecting at least one pull-out unit (108) for pulling out a plurality of billet strands (K) from the molds (102) with the rear construction (7); x) coupling the extraction unit (108) to the hydraulic supply.
公开号:AT516300A1
申请号:T50676/2014
申请日:2014-09-23
公开日:2016-04-15
发明作者:Johann Dipl Ing Fh Penn；Thomas Dipl Ing Penn
申请人:Primetals Technologies Austria GmbH；
IPC主号:

专利说明:

description
Process for the rapid conversion of a single-strand slab caster into a multi-strand billet continuous caster and vice versa
Field of engineering
The present invention relates to the technical field of continuous casting. Through continuous casting, most of the world's steel produced annually in continuously-operated continuous casting plants is now cast into strands with different cross-sections (for example slabs, billets, blooms, profils).
Both continuous casting plants for the continuous casting of liquid steel into a billet with a billet or slab cross section are known.
On the one hand, the present invention relates to a method for rapidly converting a single-strand slab caster (ie, a continuous casting machine for continuous casting of liquid steel into a slab with slab cross-section) into a multi-strand billet continuous casting machine (ie continuous casting machine for continuously casting liquid steel into multiple strands with billet cross-section).
On the other hand, however, the invention also relates to a method for rapidly converting a multi-strand billet continuous casting machine into a single-strand continuous slab caster.
State of the art
Both methods for converting a single-strand slab continuous casting machine into a multi-strand billet continuous casting machine and vice versa are known in principle. In this case, a continuous casting plant of one type is converted by a time-consuming conversion into a continuous casting plant of the other type. However, since the conversion by the exchange of the mold (s), the oscillating unit (s) for the mold (s) and the strand guide takes a long time, the plant operator can not respond promptly to cyclical variations in the demand for slab or stick strands. Thus, on the one hand, the plant operator can not fully utilize his existing continuous casting plants or sell the strands that are currently in less demand for maximum profit, or, on the other hand, he can cover a temporary demand. Both cases are unsatisfactory for the plant operator. Finally, the plant operator can not operate his continuous casting plant during the conversion, so that significant output losses (which are proportional to the conversion time) result.
Summary of the invention
The object of the present invention is to provide a method for rapid conversion of a single-strand slab continuous casting into a multi-strand billet continuous casting and a method for rapid conversion of a multi-strand billet continuous casting into a single-strand continuous slab caster.
This object is achieved by the method according to claim 1. Preferred embodiments are the subject of abhän¬gigen claims.
Specifically, the object is achieved by a method for converting a single-strand slab continuous casting into a multi-strand billet continuous casting, wherein the continuous slab caster comprises: - a mold for casting of liquid steel in ei¬nen slab strand and an oscillating unit for oscillating the mold ; a strand guide for supporting, guiding and cooling the slab strand, wherein the strand guide has a plurality of hydraulically adjustable segments, the slab strand is cooled in the segments by cooling nozzles and optionally reduced in thickness, the segments with a rear construction are mechanically fluid and each with a hydraulic and a water supply comprising the method steps: i) decoupling the water supply from the mold and decoupling the hydraulic supply from the oscillating unit; ii) removal of the mold and the oscillating unit and installation of a common support frame for a plurality of billet strands in the area of the machine head of the continuous casting plant, wherein the common support frame is connected to the mainland of the continuous casting machine; iii) installing one mold each for casting liquid steel into a billet strand and one oscillating unit each for oscillating the mold per billet strand, wherein a plurality of oscillating units are connected to the common support frame; iv) coupling the water supply to the molds and An¬ coupling the hydraulic supply to the oscillating units; v) disconnecting the water supply and hydraulic supply from the segments; vi) releasing the segments from the rear construction of the continuous casting plant and removing the segments from the continuous casting plant; vii) connecting pairs of rolls for guiding a plurality of billets with the rear construction, the billet strands being supported on both sides by a pair of rolls and cooled by cooling nozzles; viii) coupling the cooling nozzles of the roller pairs to the water supply; ix) connecting at least one pull-out unit for pulling out several billet strands from the molds with the rear construction; x) coupling the pull-out unit to the hydraulic supply.
By the conversion process according to the invention can both Bram men continuous casting with a straight or curved
Mold are rapidly converted into a multi-strand billet continuous caster. To this end, first, the machine head (i.e., the mold and the oscillating unit) of the slab caster is converted. After uncoupling the water supply from the mold and the hydraulic supply from the oscillating unit and the removal of the machine head of the Bram-men continuous casting plant, a common support frame is installed and connected to the mainland of the continuous casting plant. In the common support frame, the oscillating units and the oscillating molds of the billet continuous casting machine are used. Due to the common support frame, the installation and removal of the machine head of the multi-strand billet continuous casting can be done very quickly.
In a particularly advantageous embodiment, the oscillating units and molds of the multi-strand billet continuous casting plant are not even detached from the common supporting frame, but are installed and removed as a module.
After the coupling of the water supply to the molds and the coupling of the hydraulic supply to the oscillating units, the functionality of the machine head is restored. Subsequently, the segments of the continuous slab caster are detached from the back structure and removed, preferably extended over rails. To guide and support the billet strands, pairs of rollers are connected to the existing rear structure. In order to be able to cool the billets in the area of the pairs of rolls, the cooling nozzles of the roll pairs are connected to the existing water supply of the continuous casting machine. Finally, at least one extraction unit - e.g. in the form of a Rollenpaa¬res with driven rollers - connected to pull out several Knüp¬pelstränge from the dies with the rear construction of the continuous casting and the pull-out unit connected to the hydraulic supply of the continuous casting.
Both in the water and hydraulic supplies, it is advantageous if the coupling and uncoupling of these compounds takes place by coupling or uncoupling so-called quick couplings. As a result, the conversion time can be further reduced.
If a billet strand leaves the mold of the billet continuous casting machine bent with a radius of curvature, it is advantageous if the pairs of rolls in the strand guide of the billet continuous casting machine are connected to the rear structure in such a way that the radius of curvature of the billet continuous casting machine Rioi is 0, 9 * Ri &lt; R10i <l, l * Ri, prefers Rioi = Ri, where Ri is the radius of curvature of the continuous slab caster. This measure makes the best use of the existing space in the continuous casting plant and allows high casting speeds.
If a billet strand leaves the mold of the billet continuous casting machine in the vertical direction, it is advantageous if, after the mold of the billet continuous casting machine, a bending device for deflecting the vertical billet strand is arranged on a radiused circular path.
In order to make best use of the given space and to enable high casting speeds, it is advantageous if the pairs of rolls in the strand guide of the billet continuous casting machine are connected to the rear construction in such a way that the bending radius Rioi of the billet continuous casting machine is 0.5 *. Ri &lt; Rioi &lt; Ri, where Ri is the Krüm¬mungsradius the slab continuous casting machine.
The object according to the invention is likewise achieved by a method according to claim 7. Preferred embodiments are the subject of the dependent claims.
Specifically, the object is achieved by a method for converting a multi-strand billet continuous casting into einsträngige slab continuous casting, the Knüppel continuous casting plant comprises: - a common support frame for several Knüppel¬st ränge, and per billet strand each a mold for pouring liquid Steel in a billet strand and a respective oscillating unit for oscillating the mold; a strand guide for supporting, guiding and cooling the billet strands, the strand guide comprising a plurality of pairs of rolls for guiding a plurality of billet strands and cooling nozzles for cooling the billet strands, the pairs of rolls being connected to a rear structure of the continuous casting plant; - At least one pullout unit for removing the Knüp¬pelstränge from the molds; comprising the method steps: i) uncoupling the at least one extraction unit from the hydraulic supply of the continuous casting plant, releasing the separation unit from the rear construction and removing the separation unit from the continuous casting plant; ii) decoupling the cooling nozzles of the roller pairs from the water supply; iii) detaching the pairs of rollers from the rear construction and removing the pairs of rollers from the continuous caster; iv) incorporating a plurality of hydraulically adjustable segments for guiding and cooling the slab strand into the continuous casting plant, connecting the segments to the rear structure, and coupling the segments to the water and hydraulic supply of the continuous casting plant so that the slab strand in the segments is cooled by cooling nozzles and optionally reduced in thickness; v) decoupling the water supply from the dies and disconnecting the hydraulic supply from the oscillating units of the continuous casting plant; vi) removal of the common support frame and the molds and oscillating units of the continuous casting installation inserted therein and installation of a mold for casting liquid steel into a slab strand and an oscillating unit for oscillating the mold; vii) coupling the water supply to the mold and An¬ coupling the hydraulic supply to the oscillating unit of the continuous casting.
Also in this method, the machine head of the multi-strand billet continuous caster can be quickly removed by the common support frame, and the machine head of the continuous caster can be used quickly. In addition, of course, the existing rear construction and the existing water and hydraulic supplies can again be used.
If the slab strand leaves the mold of the slab continuous casting machine bent with a radius of curvature, it is advantageous if the segments in the slab guide of the slab continuous casting machine are connected to the rear structure in such a way that the radius of curvature of the slab continuous slab casting machine applies Rioi / 1,1 &lt; Ri <Rioi / 0.9, preferably Ri = Rioi, where R10i is the radius of curvature of the stick-type continuous casting machine. As a result, the available space is optimally utilized again and a high casting speed is made possible.
If the slab strand leaves the mold of the slab continuous casting machine in a vertical direction, it is advantageous if, after the mold of the slab continuous casting machine, a bending device for deflecting the vertical slab strand is arranged on a radiused circular path.
In order to optimally utilize the given space and to enable high casting speeds, it is advantageous if the segments in the strand guide of the slab continuous casting machine are connected to the rear structure in such a way that the radius of curvature Ri of the slab continuous casting machine is R10i &lt; Ri &lt; 2 * Ri0i, where Rioi is the curvature radius of the billet continuous casting machine.
Brief description of the drawings
Further advantages and features of the present invention emerge from the following description of non-limiting embodiments, the following figures showing:
1 shows a representation of a single-strand slab stranding plant
2 shows a representation of a multi-strand billet continuous casting machine with a straight mold
3 shows a representation of a multi-strand billet continuous casting machine with bent molds
4 shows a representation of a machine head of a multi-strand billet continuous casting machine with bent Kokil¬len with a common support frame for three strands
Description of the embodiments
1 shows a single-strand slab caster 1 with a straight mold 2, an oscillating unit 3, a strand guide 4, comprising a bending device 5 for bending the vertical slab strand B onto a circular path R of radius R and a total of 14 hydraulically adjustable segments 4a... 4n shown. The segments 4a ... 4h serve to guide the slab strand B on the circular arc R or Ri and to cool the slab strand by cooling nozzles and, if necessary, reduce it in its thickness (for example by a soft core or liquid core reduction). The following segments 4i... 4n serve to guide the slab strand B horizontally and, if necessary, to further reduce the thickness of the slab strand B.
Above the actual slab continuous casting plant 1, certain parts, such as the mold 2, the oscillating unit 3, the bending device 5 and a segment 4a... 4n have been shown in detail. The thick line between the continuous slab caster 1 shown below and the detailed view symbolizes the local relationship between the different representations.
As shown in Figure 1, the oscillating unit 3 is mechanically connected to the permanent land 6 of the continuous casting plant and fluidly connected to a hydraulic supply; Furthermore, of course, the mold 2 is connected to the water supply. In addition, the segments 4a ... 4n are each releasably mechanically connected to the rear structure 7 and fluidly connected to each of a hydraulic and a water supply. By means of the hydraulic supply, the slab strand B can be reduced in its thickness by the at least four hydraulic cylinders of each segment. Through the water supply, the slab strand B can be cooled by cooling nozzles.
By converting the single-strand slab continuous casting plant 1 of FIG. 1 into a multi-strand billet continuous casting plant 101 (see FIGS. 2 or 3), the time-varying demand for either slabs or billets can be satisfied in a timely manner and the conversion times are kept low. This is achieved by reusing as many parts as possible (for example, the rear structure 7, the mainland 6, but also the existing water and hydraulic connections in the area of the machine head and in the area of the strand guide 4) in both types of installations. In order not to unnecessarily complicate the figures, the representation of the hydraulic and water supplies was dispensed with.
During conversion, the procedure is as follows:
First, the water supply from the mold 2 and the hydraulic supply from the oscillating unit 3 is decoupled. This is done by disconnecting Schnellkupplun¬gen each. Subsequently, the mold 2 and the Oszilliereinheit3 is removed and instead a common support frame 111 (see Figure 4) for three billet strands K installed. In the common support frame 111, three oscillating units 103 and three chill molds 102 of billet size are used. The common support frame 111 is connected to the mainland 6. By coupling the water supply to the dies 102 (ideally only one water inlet and one drain for three molds, ie per support frame) and the coupling of the hydraulic supply to the oscillating units 103 (ideally again only one pressure line and one tank line for three oscillating units, ie per support frame), the radio-capability of the machine head of the billet continuous casting machine 101 is produced. Subsequently, the segments 4a ... 4n are decoupled from the hydraulic and hydraulic supplies, the segments are detached from the rear structure 7 and extended from the continuous caster over the illustrated rails; In addition, the bending device 5 is removed. Instead of the bending device 5 and the segments 4 of the continuous slab casting machine, a bending device 105 for a plurality of billet strands K and a plurality of pairs of rolls 104a.. Knüppel stränge Kangeordnet. As shown in Fig. 2, the roller pairs 104a-104i are connected to the existing rear construction 7 and the cooling nozzles of the roller pairs are connected to the existing water supply. In order to enable the withdrawal of the billet strands K from the molds 102, a plurality of pairs of rollers are designed as pull-out units, wherein the pairs of rollers are driven by a motor. For this purpose, these pairs of rollers are connected to a hydraulic connection. From Fig 2 shows that not all slab segments have been replaced by Rollen¬paare. This is i.a. also not required, since the billet strands are typically not reduced in thickness in the horizontal outlet region.
In contrast to the straight dies 102 of the billet continuous casting machine in FIG. 2, the billet continuous casting machine of FIG. 3 has curved dies 102. The bent Ko¬killen 102 eliminates the need to install a bending device for the billet strands K. As a result, the conversion is further accelerated.
Finally, FIG. 4 shows a machine head of a multi-strand billet continuous caster 101 with curved cores 102. Each bent mold 102 is oscillated by an oscillating unit 103, wherein three oscillating units 103 in turn are supported on the common support frame 111. Concretely, the common support frame 111 is installed below the slab mold 2, naturally being removed prior to installation.
Since the conversion of a multi-strand billet continuous casting machine 101 into a single-strand continuous slab caster 1 is generally carried out in the reverse direction for the conversion of a single-strand slab caster 1 into a multi-strand billet continuous caster 101, this conversion method is also sufficient for a person skilled in the art disclosed.
When converting the multi-strand billet continuous casting plant 101 of FIG. 3 into a single-strand slab continuous casting plant 1, the procedure is as follows:
First, the pull-out units 108 are decoupled from the hydraulic supply of the continuous casting installation 101, the pull-out units 108 are detached from the rear construction 7 and removed from the continuous casting installation. Subsequently, the cooling nozzles of the roller pairs 104a... 104g are also disconnected from the water supply, the roller pairs are released from the rear construction 7 and removed from the continuous casting installation. Furthermore, several hydraulically adjustable segments 4a ... 4n (see FIG. 1) for guiding and cooling the slab strand B are introduced into the continuous casting plant and the segments 4a... 4n are connected to the rear structure 7. Finally, the segments 4a... 4n are coupled to the water supply and the hydraulic supply of the continuous casting plant, so that the slab strand B can be cooled in the segments 4a... 4n by cooling nozzles and, if appropriate, can be reduced in thickness. Following the conversion of the strand guide 4, the water supply from the dies 102 and the hydraulic supply are disconnected from the oscillating units 103 of the continuous casting plant. Then, the common support frame 111 and the dies 102 and oscillating units 103 inserted therein are removed, and instead a mold 2 for casting liquid steel into a slab strand B and an oscillating unit 3 for oscillating the mold 2 are installed. By coupling the water supply to the mold 2 and the coupling of the hydraulic supply to the oscillating unit 3, the functionality of the machine head is restored. It is clear to the person skilled in the art that it is neither necessary in the conversion method according to claim 1 nor in the conversion method according to claim 7, that the method steps are carried out exactly in the order indicated, e.g. i to x in claim 1 and i to viibei claim 7, respectively. For example, the steps v to x in claim 1 are also carried out before the steps i to iv. The same applies to claim 7.
The scope of the invention also includes the conversion of a multi-strand (for example double-stranded) continuous slab caster into a plurality (for example, again two) of multi-strand billet continuous casters and vice versa. In this case, the process steps are repeated several times, i. each once per slab strand, performed.
Although the invention has been illustrated and described in detail by the preferred embodiments, the invention is not limited by the disclosed examples and other variations can be deduced therefrom by those skilled in the art without departing from the scope of the invention.
REFERENCE SIGNS LIST 1 single-strand slab continuous casting 2 die for the continuous slab caster 3 oscillating unit for the continuous slab caster 4 strand guide for the continuous slab caster 4a ... 4n segment of the strand guide 5 bending device 6 mainland 7 rear construction 101 multi-strand billet continuous casting 102 mold for the Billet continuous caster 103 Oscillating unit for the billet continuous caster 104 Strand guide for the billet continuous caster104a ... l04i Roller pair 105 Bending unit for the billet continuous caster 108 Pulling unit 111 Common support frame B Slab strand K Billet strand R, Ri, Rioi Radius of curvature

权利要求:
Claims (12)
[1]
1. A method for converting a single-strand continuous slab caster (1) in a multi-strand billet continuous casting (101), wherein the continuous slab caster (1) comprises: - a mold (2) for pouring liquid steel into a slab strand (B) and an oscillating unit (3) for oscillating the mold (2); - a strand guide (4) for supporting, guiding and cooling the slab strand (B), wherein the strand guide (4) has a plurality of hydraulically adjustable segments (4a ... 4n), the strand (B) in the segments (4a ... 4n) cooled by cooling nozzles and optionally reduced in thickness, the segments (4a ... 4n) with a rear structure (7) mecha¬nisch and each with a hydraulic and a water supply fluid are technically connected; comprising the steps of: i) decoupling the water supply from the mold (2) and decoupling the hydraulic supply from the oscillating unit (3) of the continuous caster; ii) Removal of the mold (2) and the oscillating unit (3) and installation of a common support frame (111) for several Knüp¬pelstränge (K) in the region of the machine head of the Stranggie߬anlage, wherein the common support frame (111) with the Fest¬land (6) the continuous casting plant is connected; iii) installation of a respective mold (102) for pouring liquid steel into a billet strand (K) and a respective oscillating unit (103) for oscillating the mold (102) per stick strand (K), wherein a plurality of oscillating units (103) with the common support frame (103) 111); iv) coupling the water supply to the molds (2) and coupling the hydraulic supply to the oscillating units (3); v) disconnecting the water supply and hydraulic supply from the segments (4a ... 4n); vi) detaching the segments (4a ... 4n) from the rear construction (7) of the continuous casting plant and removing the segments (4a ... 4n) from the continuous casting plant; vii) connecting pairs of rollers (104a... l04i) for guiding a plurality of billet strands (K) to the rear construction (7), where the billet strands (K) are supported on both sides by a pair of rollers (104a.. cooled by cooling nozzles; viii) coupling the cooling nozzles of the roller pairs (104a ... l04i) to the water supply; ix) connecting at least one pull-out unit (108) for pulling a plurality of billet strands (K) out of the molds (102) with the rear construction (7); x) coupling the pull-out unit (108) to the hydraulic supply.
[2]
2. The method according to claim 1, characterized in that a billet strand (K) the mold (102) of the billet continuous casting machine (101) bent with a radius of curvature (R, Rioi) leaves.
[3]
3. The method according to claim 2, characterized in that the roller pairs (104a ... l04i) in the strand guide (104) of the stick-type continuous casting machine (101) are connected to the rear structure (7) such that for the Krüm¬mungsradius Rioi the billet Strand casting machine (101) holds 0.9 * Ri &lt; Rioi &lt; l, l * Ri, preferably Rioi = Ri, where Ri is the Krüm¬mungsradius the slab continuous casting machine (1).
[4]
4. The method according to claim 1, characterized in that a billet strand (K) leaves the mold (102) of the billet continuous casting machine (101) straight in the vertical direction.
[5]
5. The method according to claim 4, characterized in that after the mold (102) of the billet continuous casting machine (101) a bending device (105) for deflecting the vertical Knüp¬pelstrangs (K) arranged on a circular arc path with radius (Rioi) becomes.
[6]
6. The method according to any one of claims 4 or 5, characterized ge indicates that the pairs of rollers (104a ... l04i) in the strand guide (104) of the billet continuous casting machine (101) are so connected to the rear structure (7), that for the radius of curvature Rioi of the billet continuous casting machine (101), 0.5 * Ri &lt; Rioi &lt; Ri, where Ri is the radius of curvature of the slab continuous casting machine (1).
[7]
7. A method for converting a multi-strand billet continuous casting (101) in a single-strand continuous slab caster (1), wherein the billet continuous casting (101) comprises: - a common support frame (111) for several Knüp¬pelstränge (K), and per billet strand (K) per one mold (102) for casting liquid steel into a billet strand (K) and one oscillating unit (103) each for oscillating the die (102); - A strand guide (104) for supporting, guiding and cooling of the billet strands (K), wherein the strand guide (104) a plurality of roller pairs (104a ... l04i) for guiding a plurality of billet strands (K) and cooling nozzles for cooling the billet strands (K), wherein the roller pairs (104a ... l04i) are connected to a rear structure (7) of the continuous caster; - at least one extraction unit (108) for extracting the stick strands (K) from the molds (102); comprising the method steps: i) decoupling the at least one extension unit (108) from the hydraulic supply of the continuous casting installation, releasing the extension unit (108) from the rear construction (7) and removing the extension unit (108) from the continuous casting installation; ii) decoupling the cooling nozzles of the roller pairs (104a ... l04i) from the water supply; iii) releasing the roller pairs (104a... 104i) from the rear structure (7) and removing the pairs of rollers (104a... 104) from the continuous caster; iv) incorporating a plurality of hydraulically adjustable segments (4a ... 4n) for guiding and cooling the slab strand (B) into the continuous casting plant, connecting the segments (4a ... 4n) to the rear structure (7), and coupling the segments (4a. ..4n) to the water supply and the hydraulic supply to the continuous casting plant so that the slab strand (B) in the segments (4a ... 4n) is cooled by cooling nozzles and optionally reduced in thickness; v) disconnecting the water supply from the molds (102) and disconnecting the hydraulic supply from the oscillating units (103) of the continuous caster; vi) removal of the common support frame (111) and the chill molds (102) and oscillating units (103) of the continuous casting machine and installation of a mold (2) for pouring liquid steel into a slab strand (B) and an oscillating unit (3) for oscillating the chill mold (2 ); vii) coupling the water supply to the mold (2) and coupling the hydraulic supply to the oscillating unit (3) of the continuous caster.
[8]
8. The method according to claim 7, characterized in that the slab strand (B) the mold (2) of the slab continuous casting machine (1) bent with a radius of curvature (R, Ri) leaves.
[9]
9. The method according to claim 8, characterized in that the segments (4a ... 4n) in the strand guide (4) of the slab continuous casting machine (1) are so connected to the rear structure (7) that for the radius of curvature Ri of the Bram -men continuous casting machine (1), Rioi / 1,1 &lt; Ri &lt; Rioi / 0.9, preferably Ri = Rioi, where Rioi is the radius of curvature of the billet continuous casting machine (101).
[10]
10. The method according to claim 7, characterized in that a slab strand (B) leaves the mold (2) of the slab continuous casting machine (1) straight in the vertical direction.
[11]
11. The method according to claim 10, characterized in that after the mold (2) of the slab continuous casting machine (1) a bending device (5) for deflecting the vertical Brammen¬strangs (B) on a circular arc path with radius (Ri) angeord¬net becomes.
[12]
12. The method according to any one of claims 10 or 11, characterized in that the segments (4a ... 4n) in the strand guide (4) of the slab continuous casting machine (1) are so connected to the rear structure (7) that for the Krüm¬mungsradius Ri of the slab continuous casting machine (1) applies Rioi ^ Ri ^ 2 * Rioi, where Rioi is the radius of curvature of the billet continuous casting machine (101).

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引用文献:

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DE1957689A1|1969-11-17|1971-05-27|Demag Ag|Continuous casting plant for metals, especially steel|

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DE1957690A1|1969-11-17|1971-05-27|Demag Ag|Rail mounting for support frames for con- - tinuous casting plant|

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EP0097639A1|1982-06-23|1984-01-04|VOEST-ALPINE Aktiengesellschaft|Continuous-casting plant|

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DE4316050A1|1993-05-13|1994-11-17|Voest Alpine Ind Anlagen|Thin-slab continuous casting installation|

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WO1999007498A1|1997-08-08|1999-02-18|Concast Standard Ag|Device and method for replacing an interchangeable part of an ingot arrangement in a continuous casting installation|

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WO2009141210A1|2008-05-23|2009-11-26|Siemens Vai Metals Technologies Gmbh & Co|Continuous casting system for casting a metal strand having a billet or bloom cross-section|

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JPS5345289B2|1976-01-27|1978-12-05|

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SU928717A1|1979-07-09|1986-08-23|Предприятие П/Я Г-4986|Multistrand continuous caster of billets|

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DE3706720C2|1987-03-02|1994-04-21|Voest Alpine Ind Anlagen|Continuous caster with two continuous molds arranged side by side|

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AT414221B|2004-06-09|2006-10-15|Voest Alpine Ind Anlagen|CONTINUITY CASTING SYSTEM AND METHOD FOR OPTIONALLY CASTING A WIDE METAL STRIP OR MAXIMUM TWO MORE THAN MERRY METAL STRINGS|CN107790657B|2017-10-24|2019-07-12|东北特钢集团大连特殊钢有限责任公司|Big camber radius plectane base compatibility conticaster and its technique|

法律状态:
2021-05-15| MM01| Lapse because of not paying annual fees|Effective date: 20200923 |

优先权:

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申请号 | 申请日 | 专利标题

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ATA50676/2014A|AT516300B1|2014-09-23|2014-09-23|Process for the rapid conversion of a single-strand slab caster into a multi-strand billet continuous caster and vice versa|ATA50676/2014A| AT516300B1|2014-09-23|2014-09-23|Process for the rapid conversion of a single-strand slab caster into a multi-strand billet continuous caster and vice versa|

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EP15748193.8A| EP3197618B1|2014-09-23|2015-07-23|Method for quickly converting a single-train continuous casting plant for slabs into a multi-train continuous casting plant for billets, and vice versa|

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RU2017107961A| RU2689259C2|2014-09-23|2015-07-23|Method for quick conversion of single-strand slab installation of continuous casting into multi-strand grade continuous casting plant and vice versa|

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PCT/EP2015/066820| WO2016045818A1|2014-09-23|2015-07-23|Method for quickly converting a single-train continuous casting plant for slabs into a multi-train continuous casting plant for billets, and vice versa|